Light emitting device package

ABSTRACT

Embodiments include a light emitting device package. The light emitting device package comprises a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a metal layer positioned on an area defined by a distance which is distant from the housing in the second section of the lead frame.

CROSS-REFERENCE TO RELATED APPLICATIONS

This U.S. National stage application claims priority under 35 U.S.C. §119(e) to Korean Patent Application No. 10-2009-0020064, filed in the Republic of Korea on Mar. 10, 2009, Korean Patent Application No. 10-2010-0020041, filed in the Republic of Korea on Mar. 5, 2010, Korean Patent Application No. 10-2010-0020043, filed in the Republic of Korea on Mar. 5, 2010, the entire contents of which are hereby incorporated herein by reference.

BACKGROUND Field

The present application relates to a light emitting device package and a manufacture method thereof.

Group III-V nitride semiconductor is in the limelight as a main material of a light emitting device such as a light emitting diode or a laser diode because of its physical and chemical characteristics. The group III-V nitride semiconductor normally has a semiconductor material having a following combination equation.

In_(x)Al_(y)Ga_(1-x-y)N (0≦x≦1, 0≦y≦1, 0≦x+y≦1)

The light emitting diode changes electricity to light or infrared light by using its characteristics as a combination semiconductor so that it transmits signal, and the light emitting diode is used as a light source, which is a kind of semiconductor device.

The light emitting diode or the laser diode using nitride semiconductor material like this is widely used in a light emitting device, and used as a light source of various products such as a light emitting unit of key pad of a mobile phone, an electric sign and lighting, etc.

SUMMARY

One embodiment of the present invention provides a light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a metal layer positioned on an area defined by a distance which is distant from the housing in the second section of the lead frame.

Another embodiment of the present invention provides a light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a metal layer positioned in an area defined by a distance which is distant from the housing in the second section of the lead frame to prevent moisture from entering the area.

In addition, another embodiment of the present invention provides a light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and an sealant for blocking an area from outside air, which is defined by a distance from the housing in the second section of the lead frame.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other features and advantages of the present invention will become more apparent to those of ordinary skill in the art by describing in detail preferred embodiments thereof with reference to the attached drawings, in which:

FIG. 1 is a cross sectional view for showing a structure of a light emitting device package according to a first embodiment of the present invention;

FIG. 2 is an another cross sectional view for showing a structure of a light emitting device package according to a first embodiment of the present invention;

FIG. 3 is a cross sectional view for showing a light emitting device package according to a second embodiment of the present invention;

FIGS. 4-7 are views of showing a manufacture process of the light emitting device package according to the first embodiment;

FIG. 8 is a view for showing a light emitting device package according to a third embodiment of the present invention;

FIGS. 9-12 are views of showing a manufacture process of the light emitting device package according to the second embodiment; and

FIG. 13 is a view for showing a light emitting device package according to a fourth embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Above all, a theoretical background relating to the present invention is described in detail with respect to appended drawings.

FIG. 1 is a cross sectional view for showing a structure of a light emitting device package according to a first embodiment of the present invention.

As shown in FIG. 1, the light emitting device package 100 according to the first embodiment comprises a housing 110 having a cavity 114, a first and a second lead frame 131, 132, a light emitting device 120 and an encapsulant 130.

The housing 110 may be made of PCB, a ceramic substrate or a resin, and the housing is formed of Polyphthalamide resin PPA in this embodiment. The housing 110 includes a lower housing 111 and an upper housing 112. The lower housing 111 and the upper housing 112 may be formed integrally with the first, second lead frame 131, 132 by injection molding, or the upper housing 112 may be joined on the lower housing 111 and the first and second lead frame 131, 132.

The housing 110 of the first embodiment comprises the lower housing 111 and the upper housing 112 which are formed integrally, and for convenience separate reference numbers are shown for the upper housing and the lower housing.

The first and the second lead frame 131, 132 penetrate the housing 110, and the frames are installed in the cavity of the housing and at the outside of the housing. The first embodiment shows the two lead frames 131,132 and however the number of the lead frames may be more than three according to a design of the light emitting device package.

Each of the first lead frame and the second lead frame 131, 132 comprises a first section positioned in the cavity, a second section extending from the first section and surrounded by the housing, and a third section extending from the second section and exposed at the outside of the housing. In addition, the first lead frame 131 and the second lead frame 132 are electrically connected to the light emitting device 120 in order to supply power to the light emitting device.

A shape of the cavity 114 which is shown in top view may be circle or polygon, and a surrounding surface 116 forming the cavity 114 of the housing may be vertical or inclined to a top surface of the lower housing 111.

The light emitting device 120 is positioned in the cavity 114 on/over the first lead frame 131 or the second lead frame 132. The light emitting device 120 is electrically connected to the first lead frame 131 and the second lead frame 132 through a wire 122.

Although not shown, the light emitting device 120 may be connected to the first lead frame 131 and the second lead frame 132 in various manners. For example, the device may be connected to the first lead frame 131 and the second lead frame 132 by using a flip bonding method without wire, or the device may be die-boned to the second lead frame 132 and connected to the first lead frame 131 through a wire.

As shown in FIG. 2, the light emitting device 120 is electrically connected to the first lead frame through a wire 122, and the light emitting device 120 itself may be connected to the second lead frame. In addition, although not shown, the light emitting device 120 may be directly connected to the first lead frame 131 and connected to the second lead frame 132 through a wire 122.

The light emitting device 120 may be positioned in the cavity or in the housing 110. In addition, the light emitting device 120 may be positioned on another lead frame, not the first lead frame 131 and the second lead frame 132.

The light emitting device 120 may be a light emitting diode chip for emitting red, green or blue light or a light emitting diode chip for emitting ultraviolet light.

An encapsulant 130 is filled in the cavity 114 of the housing. The encapsulant 130 may be made of transparent resin such as silicon resin or epoxy resin, and it may include a fluorescent material which is entirely or partly distributed in the transparent resin. The first lead frame 131 and the second lead frame 132 penetrate the housing, and are divided into at least two parts so that each of the lead frame 131, 132 may be exposed at the outside of the housing 110.

In addition, the first lead frame 131 and the second lead frame 132 may be respectively bended to an outside surface of the housing 110 by a trim process and a forming process. In the first embodiment, the first lead frame 131 and the second lead frame 132 are bended to contact a side surface and a bottom surface of the lower housing 111.

The first lead frame 131 and the second lead frame 132 may be made of a metal or an alloy having copper Cu as a main component, and the frames may have on its surface more than one plating layer such as a nickel plating layer, a gold plating layer, and a silver plating layer. In this embodiment, a silver plating layer (not shown) is formed on the first lead frame 131 and the second lead frame 132.

Meantime, each of the second section 131-2, 132-2 of the first lead frame 131 and the second lead frame 132 which is surrounded by the housing by penetrating the housing has a boundary surface with the housing. The second section of the respective lead frame does not contact entirely with the housing, and its certain part is distant from the housing. In other words, while the first lead frame 131 and the second lead frame 132 passes through a trim process and a forming process, and the frames 131, 132 do not contact tightly with the housing 110 and may be separated from the housing 110.

Main reason is a stress at a boundary surface where the first, second lead frame and the housing contact each other, and a side reason is that the first, second lead frame and the housing are made of different materials having different heat-inflation coefficient. In this case, an area may be created between the first, second lead frame and the housing 110. Accordingly, the first, second lead frame exposed in the area 200 is oxidized by moisture included in air. As time passes, this oxidization of the first, second lead frame progresses to an area adjacent to the light emitting device and an air gap (not shown) is created between the light emitting device 120 and the first, second lead frame. When the light emitting device 120 is operating, it generates heat back toward the light emitting device 120 and the air gap (not shown) blocks a passage for emitting heat through the first, second lead frame.

In the first embodiment, a metal layer 145 is positioned in an area 200 defined by a distance between the housing 110 and the respective first, second lead frame 131, 132. The metal layer 145 is filled in the area 200 to prevent air, moisture or foreign substances from entering the area 200. Accordingly, the metal layer 145 can prevent the first, second lead frame 131,132 exposed in the area 200 from being oxidized by moisture. In addition, the metal layer 145 prevents oxidization of the first and second lead frame 131,132, thereby obtaining unique electric characteristics of the first and second lead frame. The metal layer 145 is extended from the second section of the first and the second lead frame 131,132 to the third section of the first and the second lead frame exposed at an outside of the housing. The metal layer 145 prevents oxidization, which is caused by exposure to outside air, of the third section of the first and second lead frame 131,132. In addition, deterioration of the electric characteristics due to the oxidization can be prevented. The metal layer 145, which is extended from the area 200 onto the third section of the first, second lead frame, may be formed through a plating process. However, a method of forming the metal layer is not limited to the plating process. Any process is possible as long as it is capable of forming the metal layer in the area 200 and on the lead frame 131, 132. A material of the metal layer 145 may include Tin. Tin is excellent and more economic compared with other metals excluding gold, in terms of heat transfer characteristics. In addition, when installing the light emitting device package 100 on a substrate with lead by the surface mount technology; tin has an excellent electric bonding capacity and conductance with the lead. Accordingly, the metal layer improves radiation heat characteristics when heat in operation of the light emitting device is radiated to the substrate along the first or second lead frame 131,132.

FIG. 3 is a cross sectional view of showing the light emitting device package according to the second embodiment.

The description repeated in the first embodiment will be omitted in the description of the second embodiment.

In FIG. 3, a sealant 146 of the second embodiment seals the area 200 between the housing 100 and the respective first and second lead frame 131,132. The sealant 146 seals the area to prevent air, moisture, foreign substances from entering. Accordingly, it prevents the first and second lead frame 131,132 exposed to the area 200 from being oxidized by moisture.

For the sealant 146, it is preferred to use a material which can adhere well to the housing and the first and second lead frame 131,132. For example, it is preferred to use a material having the same or similar heat expansion coefficient as/to that of the housing or the first and second lead frame 131,132. In other words, it is preferred to use same resin as the housing 110 or same metal as the first and second lead frame 131, 132.

In case the sealant 146 is metal, it prevents deterioration of unique electric characteristic of the first and second lead frame 131,132 caused as time passes.

A sealing method may be spray painting process, injection molding process and so on. It is not limited to the process like this.

A metal film 147 may be formed on a surface of the third section of the first and the second lead frame exposed to an outside of the housing. The metal film 147, which is formed on the third section of the first and second lead frame, may be made by a plating process. The metal film 147 includes Tin.

FIGS. 4-7 are views of showing a manufacture process of the light emitting device package according to the first embodiment.

As shown in FIG. 4, the first lead frame 131 and the second lead frame 132 are positioned in an injection apparatus, and the first lead frame 131 and the second lead frame 132 and the housing are made integrally by injecting resin to the apparatus. The first lead frame 131 and the second lead frame 132 are made of metal or alloy having copper as a main component, and surfaces of which may have more than one plating layer such as a nickel plating layer, a gold plating layer or silver plating layer. In this embodiment, the surfaces of the first lead frame 131 and the second lead frame 132 have a silver plating layer (not shown).

In FIG. 5, the light emitting device 120 is installed on the second lead frame 132, and the light emitting device 120 is electrically connected to the first lead frame 131 and the second lead frame 132 through a wire 122.

In FIG. 6, an encapsulant 130 is injected to the cavity 114 of the housing 110. The encapsulant 130 may include fluorescent material. By trimming and forming the first lead frame 131 and the second lead frame 132, the lead frames are made to contact sides and bottom surfaces of the housing 110. During the trimming and forming process for the lead frames, an area 200 may be created between the lead frame 131, 132 and the housing 110.

As shown in FIG. 7, a metal layer 145 is filled in the area 200, and the metal layer is formed on the first lead frame 131 and the second lead frame 132 which are exposed at the outside of the housing. The metal layer 145 may be formed through a plating process, and for example Tin may be used for the metal layer.

FIG. 8 is a view of showing a light emitting device package according to a third embodiment. The description repeated in the first embodiment is omitted in a description of the third embodiment.

As shown in FIG. 8, the light emitting device package according to a third embodiment comprises a housing 110 having a cavity 114, a first, second lead frame 131,132, a light emitting device 120 and an encapsulant 130.

A part of the first, second lead frame 131,132 are projected toward an outside of the housing 110, and unlike the first embodiment the lead frames are not contacted with the sides and the bottom of the housing 110. However, during a trimming process for the first, second lead frame 131,132, an area 200 may be created between the lead frames 131, 132 and the housing 110, and a metal layer 145 is formed to fill the area 200.

FIGS. 9-12 are views of showing a manufacture process of the light emitting device package according to the second embodiment.

As shown in FIG. 9, the first lead frame 131 and the second lead frame 132 are positioned in an injection apparatus, and the first lead frame 131 and the second lead frame 132 and the housing are made integrally by injecting resin to the apparatus. The first lead frame 131 and the second lead frame 132 are made of metal or alloy having copper as a main component, and surfaces of which may have more than one plating layer such as a nickel plating layer, a gold plating layer or silver plating layer. In this embodiment, the surfaces of the first lead frame 131 and the second lead frame 132 have a silver plating layer (not shown).

In FIG. 10, the light emitting device 120 is installed on the second lead frame 132, and the light emitting device 120 is electrically connected to the first lead frame 131 and the second lead frame 132 through a wire 122.

As shown in FIG. 11, an encapsulant 130 is injected to the cavity 114 of the package body 110. By trimming and forming the first lead frame 131 and the second lead frame 132, the lead frames are made to contact sides and bottom surfaces of the housing 110. During the trimming and forming process for the lead frames, an area 200 may be created between the lead frame 131, 132 and the housing 110.

As shown in FIG. 12, the area 200 is sealed by a sealant 146 and a material of the sealant may be a metal or resin. A metal layer 147 is formed on the first lead frame 131 and the second lead frame 132 which are exposed at the outside of the housing. The metal layer 147 may be formed through a plating process, and for example Tin may be used for the metal layer.

FIG. 13 is a view of showing a light emitting device package according to a fourth embodiment. The description repeated in the second embodiment is omitted in a description of the fourth embodiment.

As shown in FIG. 13, the light emitting device package according to a fourth embodiment comprises a housing 110 having a cavity 114, a first, second lead frame 131,132, a light emitting device 120 and an encapsulant 130.

A part of the first, second lead frame 131, 132 is projected toward an outside of the housing 110, and unlike the first embodiment the lead frames are not contacted with the sides and the bottom of the housing 110. However, during a trimming process for the first, second lead frame 131,132, an area 200 may be created between the lead frames 131, 132 and the housing 110, and the area 200 is sealed by the sealant 146.

Although in the above embodiments the plural lead frames are made by a trimming and forming process, a shape of one of the lead frames may be a bar for penetrating the package body in the up and down direction, and the other lead frame may be formed by the trimming and forming process. In addition, the lead frames may have a metal film thereon. 

1. A light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a metal layer positioned on an area defined by a distance which is distant from the housing in the second section of the lead frame.
 2. The light emitting device package as set forth in claim 1, wherein the metal layer is formed on a surface of the third section of the lead frame exposed on the outside air.
 3. The light emitting device package as set forth in claim 1, wherein a material of the metal layer includes Tin.
 4. A light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a metal layer positioned in an area defined by a distance which is distant from the housing in the second section of the lead frame to prevent moisture from entering the area
 5. The light emitting device package as set forth in claim 4, wherein the metal layer is formed on a surface of the third section of the lead frame exposed on the outside air.
 6. The light emitting device package as set forth in claim 4, wherein a material of the metal layer includes Tin.
 7. A light emitting device package comprising: a housing including a cavity; a light emitting device positioned in the cavity; a lead frame including a first section electrically connected to the light emitting device in the cavity, a second section, which penetrates the housing, extending from the first section and a third section, which is exposed to outside air, extending from the second section; and a sealant for blocking an area from outside air which is defined by a distance from the housing in the second section of the lead frame.
 8. The light emitting device package as set forth in claim 7, wherein a material of the sealant is same as that of the housing.
 9. The light emitting device package as set forth in claim 8, wherein a material of the sealant is a metal.
 10. The light emitting device package as set forth in claim 9, wherein the metal film is formed on a surface of the third section of the lead frame exposed at outside of the housing.
 11. The light emitting device package as set forth in claim 10, wherein the metal film includes Tin. 